Recent content by lachgar
-
How to form the stress tensor component from the equilibrium equation?
Thank you- lachgar
- Post #10
- Forum: Advanced Physics Homework Help
-
How to form the stress tensor component from the equilibrium equation?
it's not demanded to solve it, it's bout giving the general form So,can we just say that = f(y.z) = Ay+Bz How can I be sure that it's a linear form, I mean we only know that it depends on y and z.- lachgar
- Post #9
- Forum: Advanced Physics Homework Help
-
How to form the stress tensor component from the equilibrium equation?
The question was posed as: -Using the equilibre equations, give the form of and ?- lachgar
- Post #7
- Forum: Advanced Physics Homework Help
-
How to form the stress tensor component from the equilibrium equation?
The bondary conditions are: T(ex)=-p ex T(-ex)=p ex T(ey) =-p ey T(-ey) = p ey T is the stress vector.- lachgar
- Post #5
- Forum: Advanced Physics Homework Help
-
How to form the stress tensor component from the equilibrium equation?
Hi. Thanks for replying. As shown in the picture, all lateral surfaces are under a constant pressure. There is no stress on the superior S(z=h/2) and inferior S(z=-h/2) surfaces. (h is the thickness). The red arrow represent the stress vector, and the black one represent the unit normal vector...- lachgar
- Post #3
- Forum: Advanced Physics Homework Help
-
How to form the stress tensor component from the equilibrium equation?
Good evening everybody. This is my suggestion for answer. The tensor is diagonal and the compression is a plane stress equilibre equation div(σ)=0 so: So, does that means that = f(y.z) = Ay+Bz and =f(x.z)= Cx+Dz A,B,C and D are constants. Is that what the question meant? Thank you in...- lachgar
- Thread
- Component Equilibrium Form Stress Stress tensor Tensor
- Replies: 9
- Forum: Advanced Physics Homework Help